Proteomic profiling of HIV-infected T-cells by SWATH mass spectrometry

Jason DeBoer; Melinda S. Wojtkiewicz; Nicole Haverland; Yan Li; Emma Harwood; Emily Leshen; Joseph W. George; Pawel Ciborowski; Michael Belshan

doi:10.1016/j.virol.2018.01.025

Proteomic profiling of HIV-infected T-cells by SWATH mass spectrometry

Jason DeBoer, Melinda S. Wojtkiewicz, Nicole Haverland, Yan Li, Emma Harwood, Emily Leshen, Joseph W. George, Pawel Ciborowski, Michael Belshan

Department of Medical Microbiology and Immunology

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Viral pathogenesis results from changes in host cells due to virus usurpation of the host cell and the innate cellular responses to thwart infection. We measured global changes in protein expression and localization in HIV-1 infected T-cells using subcellular fractionation and the Sequential Window Acquisition of all Theoretical Mass Spectra (SWATH-MS) proteomic platform. Eight biological replicates were performed in two independent experimental series. In silico merging of both experiments identified 287 proteins with altered expression (p <.05) between control and infected cells- 172 in the cytoplasm, 84 in the membrane, and 31 in nuclei. 170 of the proteins are components of the NIH HIV interaction database. Multiple Reaction Monitoring and traditional immunoblotting validated the altered expression of several factors during infection. Numerous factors were found to affect HIV infection in gain- and loss-of-expression infection assays, including the intermediate filament vimentin which was found to be required for efficient infection.

Original language	English (US)
Pages (from-to)	246-257
Number of pages	12
Journal	Virology
Volume	516
DOIs	https://doi.org/10.1016/j.virol.2018.01.025
State	Published - Mar 2018

All Science Journal Classification (ASJC) codes

Virology

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10.1016/j.virol.2018.01.025

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title = "Proteomic profiling of HIV-infected T-cells by SWATH mass spectrometry",

abstract = "Viral pathogenesis results from changes in host cells due to virus usurpation of the host cell and the innate cellular responses to thwart infection. We measured global changes in protein expression and localization in HIV-1 infected T-cells using subcellular fractionation and the Sequential Window Acquisition of all Theoretical Mass Spectra (SWATH-MS) proteomic platform. Eight biological replicates were performed in two independent experimental series. In silico merging of both experiments identified 287 proteins with altered expression (p <.05) between control and infected cells- 172 in the cytoplasm, 84 in the membrane, and 31 in nuclei. 170 of the proteins are components of the NIH HIV interaction database. Multiple Reaction Monitoring and traditional immunoblotting validated the altered expression of several factors during infection. Numerous factors were found to affect HIV infection in gain- and loss-of-expression infection assays, including the intermediate filament vimentin which was found to be required for efficient infection.",

author = "Jason DeBoer and Wojtkiewicz, {Melinda S.} and Nicole Haverland and Yan Li and Emma Harwood and Emily Leshen and George, {Joseph W.} and Pawel Ciborowski and Michael Belshan",

note = "Funding Information: This study was funded by Public Health Service grants AI080348 (M.B.), DA030962 (P.C.), DA0443258 (P.C.), and MH062261 (P.C.) from the National Institutes of Health . Jason DeBoer was funded by the US Army's Medical Service Corp Long Term Health Education Program. The following reagents were obtained through the NIH AIDS Reagent Program, Division of AIDS, NIAID, NIH: Jurkat Clone E6-1 from Dr. Arthur Weiss; HIV-IG from NABI and NHLBI; anti-HIV-1 p24 Monoclonal (183-H12-5C) from Dr. Bruce Chesebro and Kathy Wehrly; and TZM-bl from Dr. John C. Kappes, Dr. Xiaoyun Wu and Tranzyme Inc. Publisher Copyright: {\textcopyright} 2018",

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doi = "10.1016/j.virol.2018.01.025",

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AU - DeBoer, Jason

AU - Wojtkiewicz, Melinda S.

AU - Haverland, Nicole

AU - Li, Yan

AU - Harwood, Emma

AU - Leshen, Emily

AU - George, Joseph W.

AU - Ciborowski, Pawel

AU - Belshan, Michael

N1 - Funding Information: This study was funded by Public Health Service grants AI080348 (M.B.), DA030962 (P.C.), DA0443258 (P.C.), and MH062261 (P.C.) from the National Institutes of Health . Jason DeBoer was funded by the US Army's Medical Service Corp Long Term Health Education Program. The following reagents were obtained through the NIH AIDS Reagent Program, Division of AIDS, NIAID, NIH: Jurkat Clone E6-1 from Dr. Arthur Weiss; HIV-IG from NABI and NHLBI; anti-HIV-1 p24 Monoclonal (183-H12-5C) from Dr. Bruce Chesebro and Kathy Wehrly; and TZM-bl from Dr. John C. Kappes, Dr. Xiaoyun Wu and Tranzyme Inc. Publisher Copyright: © 2018

PY - 2018/3

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N2 - Viral pathogenesis results from changes in host cells due to virus usurpation of the host cell and the innate cellular responses to thwart infection. We measured global changes in protein expression and localization in HIV-1 infected T-cells using subcellular fractionation and the Sequential Window Acquisition of all Theoretical Mass Spectra (SWATH-MS) proteomic platform. Eight biological replicates were performed in two independent experimental series. In silico merging of both experiments identified 287 proteins with altered expression (p <.05) between control and infected cells- 172 in the cytoplasm, 84 in the membrane, and 31 in nuclei. 170 of the proteins are components of the NIH HIV interaction database. Multiple Reaction Monitoring and traditional immunoblotting validated the altered expression of several factors during infection. Numerous factors were found to affect HIV infection in gain- and loss-of-expression infection assays, including the intermediate filament vimentin which was found to be required for efficient infection.

AB - Viral pathogenesis results from changes in host cells due to virus usurpation of the host cell and the innate cellular responses to thwart infection. We measured global changes in protein expression and localization in HIV-1 infected T-cells using subcellular fractionation and the Sequential Window Acquisition of all Theoretical Mass Spectra (SWATH-MS) proteomic platform. Eight biological replicates were performed in two independent experimental series. In silico merging of both experiments identified 287 proteins with altered expression (p <.05) between control and infected cells- 172 in the cytoplasm, 84 in the membrane, and 31 in nuclei. 170 of the proteins are components of the NIH HIV interaction database. Multiple Reaction Monitoring and traditional immunoblotting validated the altered expression of several factors during infection. Numerous factors were found to affect HIV infection in gain- and loss-of-expression infection assays, including the intermediate filament vimentin which was found to be required for efficient infection.

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Proteomic profiling of HIV-infected T-cells by SWATH mass spectrometry

Abstract

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